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Feb 18, 2019
How Do Particles Escape Black Holes? Supercomputers May Have the Answer
Posted by Quinn Sena in categories: cosmology, particle physics, supercomputing
The gravitational pull of a black hole is so strong that nothing, not even light, can escape once it gets too close. However, there is one way to escape a black hole — but only if you’re a subatomic particle.
As black holes gobble up the matter in their surroundings, they also spit out powerful jets of hot plasma containing electrons and positrons, the antimatter equivalent of electrons. Just before those lucky incoming particles reach the event horizon, or the point of no return, they begin to accelerate. Moving at close to the speed of light, these particles ricochet off the event horizon and get hurled outward along the black hole’s axis of rotation.
Known as relativistic jets, these enormous and powerful streams of particles emit light that we can see with telescopes. Although astronomers have observed the jets for decades, no one knows exactly how the escaping particles get all that energy. In a new study, researchers with Lawrence Berkeley National Laboratory (LBNL) in California shed new light on the process. [The Strangest Black Holes in the Universe].
Feb 18, 2019
Turning Light into Matter May Soon Be Possible
Posted by Quinn Sena in categories: information science, particle physics
Circa 2014
Scientists may soon create matter entirely from light, using technology that is already available to complete a quest 80 years in the making.
The experiment would re-create events that were critical in the first 100 seconds of the universe and that are also expected to happen in gamma-ray bursts, the most powerful explosions in the cosmos and one of the greatest unsolved mysteries in physics, researchers added.
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Despite rapid advances in targeted therapies for cancer, tumors commonly develop resistance to treatment. When resistance emerges, tumor cells continue to grow unchecked, despite all attempts to slow cancer progression. While mutations in cancer cells significantly affect drug sensitivity, it is increasingly recognized that ecological interactions between cells can also play a role.
Jacob Scott, MD, DPhil, a physician-scientist at Cleveland Clinic, is interested in learning how cancer cells develop and maintain drug resistance from an eco-evolutionary perspective. He studies the evolutionary strategies that cells employ to survive even in the harshest of conditions. One area of focus of his laboratory is to examine the dynamics of sensitive versus resistant cancer cells and how they affect one another’s growth under the selective pressure of anti-cancer therapies.
“Rather than searching for a ‘silver bullet’ to wipe out all resistant cells, which is unlikely, we are focused on preventing the resistant cells from taking over—from ‘winning’ every time,” Dr. Scott said. “If we can achieve this goal, we can effectively make cancer a chronic condition.”
Feb 18, 2019
Neuromelanin-sensitive MRI identified as a potential biomarker for psychosis
Posted by Quinn Sena in categories: biotech/medical, health, neuroscience
Researchers have shown that a type of magnetic resonance imaging—called neuromelanin-sensitive MRI (NM-MRI)—is a potential biomarker for psychosis. NM-MRI signal was found to be a marker of dopamine function in people with schizophrenia and an indicator of the severity of psychotic symptoms in people with this mental illness. The study, funded by the National Institute of Mental Health (NIMH), part of the National Institutes of Health, appears in the Proceedings of the National Academy of Science.
“Disturbances affecting the neurotransmitter dopamine are associated with a host of mental and neurological disorders, such as schizophrenia and Parkinson’s disease,” said Joshua A. Gordon, M.D., Ph.D., director of NIMH. “Because of the role dopamine plays in these disorders, the ability to measure dopamine activity is critical for furthering our understanding of these disorders, including how to best diagnose and treat them.”
Neuromelanin is a dark pigment created within dopamine neurons of the midbrain—particularly in the substantia nigra, a brain area that plays a role in reward and movement. Neuromelanin accumulates over the lifespan and is only cleared away from cells following cell death, as occurs in neurodegenerative disorders such as Parkinson’s disease. Researchers have found that NM-MRI signal is lower in the substantia nigra of people with Parkinson’s disease, reflecting the cell death that occurs in these patients.
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Feb 18, 2019
Super Moon? Snow Moon? Full moon? Whatever you call it, a lunar spectacle is coming Monday night/Tuesday morning
Posted by Alberto Lao in category: space
Whether you call it full, snow or super, the biggest, brightest moon of the year is coming to a sky near you Monday night/Tuesday morning.
Feb 18, 2019
British woman is first in the world to undergo gene therapy for most common form of blindness
Posted by Genevieve Klien in categories: biotech/medical, life extension
A British woman has become the first person in the world to undergo gene therapy for the most common cause of sight loss.
Surgeons at the John Radcliffe Hospital in Oxford inserted a synthetic gene into the left eye of Janet Osborne, 80, who suffers from age-related macular degeneration (AMD).
Around 600,000 people in the UK are affected by AMD, which affects the central part of a patient’s vision with gaps or ‘smudges’, making everyday activities like reading and recognising faces difficult.
Feb 18, 2019
How quantum dots supercharge farming, medicine and solar, too
Posted by Quinn Sena in categories: biotech/medical, food, quantum physics
Circa 2018
From medical to agricultural to solar, quantum dots have uses far beyond the humble TV.
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Feb 18, 2019
Here’s a Simple Thing We Can Do to Cancel Out Years of CO2 Emissions
Posted by Quinn Sena in categories: climatology, space, sustainability
An ambitious new analysis of the world’s forests found that there’s space to plant 1.2 trillion new trees — a number that would absorb more carbon than human emissions.
According to the new data, ETH Zurich researcher Thomas Crowther told The Independent, trees are “our most powerful weapon in the fight against climate change.”
Crowther told The Independent that the new analysis, which he presented at a conference this weekend, suggests that a worldwide tree-planting spree would have a greater impact on the planet’s environment than building wind turbines or vegetarian diets — an effort, he says, that could cancel a decade of greenhouse emissions.
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Feb 18, 2019
A call for a theoretical framework to address replication crisis facing the psychological sciences
Posted by Quinn Sena in category: economics
A pair of researchers from the London School of Economics and Political Science and Harvard University has published a Perspective piece in the journal Nature Human Behavior suggesting a possible solution to the replication crisis facing the psychological sciences. Michael Muthukrishna and Joseph Henrich believe the answer lies in convincing researchers to start working within a theoretical framework.
Most experts would agree that human psychology is a difficult problem. Why do people do the things they do? Why do groups behave one way or another? No one really knows the answers to such questions, though psychology and sociology researchers have been carrying out experiments for many years. In more recent times, such research has questioned because so few studies have been replicated by others. Even when research teams attempt to do so, they produce different results. This has resulted in what has come to be known as a replication crisis. In their paper, Muthukrishna and Henrich suggest solving the crisis requires researchers in the field to begin conducting experiments the way they are done with other sciences—by using a theoretical framework, or even multiple frameworks. They note that doing so would reduce the number of questions that can be asked regarding a given behavior—without such a framework, they add, there is no limit.